#plotter.save('mcdata-os-p1p2f3-nvtx') # Lower stat but closer to signal region #plotter.plot_mc_vs_data('os/p1p2p3', 'rho') #plotter.save('mcdata-os-p1p2p3-rho') #plotter.plot_mc_vs_data('os/p1p2p3', 'nvtx') #plotter.save('mcdata-os-p1p2p3-nvtx') # Make Z->mumu + tau jet control weighted = plotter.plot('data', 'os/p1p2f3/w3/e_m_Mass', 'hist', rebin=20, styler=make_styler(2, 'hist'), xaxis='m_{e#mu} (GeV)') unweighted = plotter.plot('data', 'os/p1p2p3/e_m_Mass', 'same', rebin=20, styler=make_styler(1), xaxis='m_{e#mu} (GeV)') weighted.SetTitle('e^{+}#mu^{-} + fake #tau_{h} est.') weighted.legendstyle = 'l' unweighted.SetTitle('e^{+}#mu^{-} + fake #tau_{h} obs.') unweighted.legendstyle = 'pe' plotter.add_legend([weighted, unweighted]) plotter.add_cms_blurb(sqrts) plotter.save('ztt-os-fr-control')
plotter.plot_mc_vs_data('os/p1p2f3', 'rho') plotter.save('mcdata-os-p1p2f3-rho') plotter.plot_mc_vs_data('os/p1p2f3', 'nvtx') plotter.save('mcdata-os-p1p2f3-nvtx') # Lower stat but closer to signal region plotter.plot_mc_vs_data('os/p1p2p3', 'rho') plotter.save('mcdata-os-p1p2p3-rho') plotter.plot_mc_vs_data('os/p1p2p3', 'nvtx') plotter.save('mcdata-os-p1p2p3-nvtx') # Make Z->mumu + tau jet control antiiso_m2JetPt = plotter.plot('data', 'ss/p1f2p3/m2JetPt', 'hist', styler=make_styler(2, 'hist'), xrange=(0, 120), rebin=10) antiiso_m2JetPt.SetTitle("Anti-iso CR yield") antiiso_m2JetPt.legendstyle='l' antiiso_m2JetPt.GetXaxis().SetTitle("#mu_{2} Jet Pt") plotter.save('data-p1f2p3-m2JetPt') antiiso_m1JetPt = plotter.plot('data', 'ss/f1p2p3/m1JetPt', 'hist', styler=make_styler(2, 'hist'), xrange=(0, 120), rebin=10) antiiso_m1JetPt.SetTitle("Anti-iso CR yield") antiiso_m1JetPt.legendstyle='l' antiiso_m1JetPt.GetXaxis().SetTitle("#mu_{1} Jet Pt") plotter.save('data-f1p2p3-m1JetPt') zmm_weighted = plotter.plot('data', 'os/p1p2f3/w3/m1_m2_Mass', 'hist', styler=make_styler(2, 'hist'), xrange=(60, 120)) zmm_weighted.SetTitle("Z#mu#mu + fake #tau_{h} est.") zmm_weighted.legendstyle='l' zmm_weighted.GetXaxis().SetTitle("m_{#mu#mu} (GeV)")
#plotter.plot_mc_vs_data('os/p1p2f3', 'rho') #plotter.save('mcdata-os-p1p2f3-rho') #plotter.plot_mc_vs_data('os/p1p2f3', 'nvtx') #plotter.save('mcdata-os-p1p2f3-nvtx') # Lower stat but closer to signal region #plotter.plot_mc_vs_data('os/p1p2p3', 'rho') #plotter.save('mcdata-os-p1p2p3-rho') #plotter.plot_mc_vs_data('os/p1p2p3', 'nvtx') #plotter.save('mcdata-os-p1p2p3-nvtx') # Make Z->mumu + tau jet control weighted = plotter.plot('data', 'os/p1p2f3/w3/e_m_Mass', 'hist', rebin=20, styler=make_styler(2, 'hist'), xaxis='m_{e#mu} (GeV)') unweighted = plotter.plot('data', 'os/p1p2p3/e_m_Mass', 'same', rebin=20, styler=make_styler(1), xaxis='m_{e#mu} (GeV)') weighted.SetTitle('e^{+}#mu^{-} + fake #tau_{h} est.') weighted.legendstyle = 'l' unweighted.SetTitle('e^{+}#mu^{-} + fake #tau_{h} obs.') unweighted.legendstyle = 'pe' plotter.add_legend([weighted, unweighted]) plotter.add_cms_blurb(sqrts) plotter.save('ztt-os-fr-control') #plotter.plot('data', 'os/p1p2p3/prescale', styler=make_styler(1)) #plotter.save('ztt-os-prescale-check') #plotter.plot('Zjets_M50', 'os/p1p2f3/weight') #plotter.save('ztt-mc-event-weights') ## Check MC weights